Your search keyword '"L. Aldaz-Carroll"' showing total 6 results

1. An mpox virus mRNA-lipid nanoparticle vaccine confers protection against lethal orthopoxviral challenge.

Author

Freyn, Alec W., Atyeo, Caroline, Earl, Patricia L., Americo, Jeffrey L., Chuang, Gwo-Yu, Natarajan, Harini, Frey, Tiffany R., Gall, Jason G., Moliva, Juan I., Hunegnaw, Ruth, Asthagiri Arunkumar, Guha, Ogega, Clinton O., Nasir, Arshan, Santos, Genesis, Levin, Rafael H., Meni, Anusha, Jorquera, Patricia A., Bennett, Hamilton, Johnson, Joshua A., and Durney, Michael A.

Subjects

MONKEYPOX, NANOPARTICLES, SMALLPOX vaccines, VACCINIA, VACCINES

Abstract

Mpox virus (MPXV) caused a global outbreak in 2022. Although smallpox vaccines were rapidly deployed to curb spread and disease among those at highest risk, breakthrough disease was noted after complete immunization. Given the threat of additional zoonotic events and the virus's evolving ability to drive human-to-human transmission, there is an urgent need for an MPXV-specific vaccine that confers protection against evolving MPXV strains and related orthopoxviruses. Here, we demonstrate that an mRNA-lipid nanoparticle vaccine encoding a set of four highly conserved MPXV surface proteins involved in virus attachment, entry, and transmission can induce MPXV-specific immunity and heterologous protection against a lethal vaccinia virus (VACV) challenge. Compared with modified vaccinia virus Ankara (MVA), which forms the basis for the current MPXV vaccine, immunization with an mRNA-based MPXV vaccine generated superior neutralizing activity against MPXV and VACV and more efficiently inhibited spread between cells. We also observed greater Fc effector TH1-biased humoral immunity to the four MPXV antigens encoded by the vaccine, as well as to the four VACV homologs. Single MPXV antigen–encoding mRNA vaccines provided partial protection against VACV challenge, whereas multivalent vaccines combining mRNAs encoding two, three, or four MPXV antigens protected against disease-related weight loss and death equal or superior to MVA vaccination. These data demonstrate that an mRNA-based MPXV vaccine confers robust protection against VACV. Editor's summary: The recent mpox virus (MPXV) outbreak has highlighted the need for high quality and safe Orthopoxvirus vaccines. The vaccine administered in response to the outbreak, a modified vaccinia Ankara (MVA), was effective at reducing mpox severity and transmission; however, it is possible that a next-generation vaccine may have performed even better. Here, Freyn et al. tested such a candidate vaccine, an mRNA vaccine encoding four highly conserved MPXV antigens. The mRNA vaccine performed as well as or better than an MVA comparator in terms of eliciting immune responses and protecting against lethal infection in mice. These data support the further development of mRNA vaccines targeting orthopoxviruses to allow for rapid response during an outbreak. —Courtney Malo [ABSTRACT FROM AUTHOR]

Published

2023

2. Electrostatics Explains the Position-Dependent Effect of G⋅U Wobble Base Pairs on the Affinity of RNA Kissing Complexes.

Author

Abi‐Ghanem, Josephine, Rabin, Clémence, Porrini, Massimiliano, Dausse, Eric, Toulmé, Jean‐Jacques, and Gabelica, Valérie

Published

2017

3. Comparative expression of hCG β-genes in human trophoblast from early and late first-trimester placentas.

Author

Cocquebert, M., Berndt, S., Segond, N., Guibourdenche, J., Murthi, P., Aldaz-Carroll, L., Evain-Brion, D., and Fournier, T.

Abstract

Human chorionic gonadotropin (hCG) displays a major role in pregnancy initiation and progression and is involved in trophoblast differentiation and fusion. However, the site and the type of dimeric hCG production during the first trimester of pregnancy is poorly known. At that time, trophoblastic plugs present in the uterine arteries disappear, allowing unrestricted flow of maternal blood to the intervillous space. The consequence is an important modification of the trophoblast environment, including a rise of oxygen levels from about 2.5% before 10 wk of amenorrhea (WA) to ∼8% after 12 WA. Two specific β-hCG proteins that differ from three amino acids have been described: type 1 (CGB7) and type 2 (CGB3, -5, and -8). Here, we demonstrated in situ and ex vivo on placental villi and in vitro in primary cultures of human cytotrophoblasts that type 1 and 2 β-hCG RNAs and proteins were expressed by trophoblasts and that these expressions were higher before blood enters in the intervillous space (8-9 vs. 12-14 WA). hCG was immunodetected in villous mononucleated cytotrophoblasts (VCT) and syncytiotrophoblast (ST) at 8-9 WA but only in ST at 12-14 WA. Furthermore, hCG secretion was fourfold higher in VCT cultures from 8-9 WA compared with 12-14 WA. Interestingly, VCT from 8-9 WA placentas were found to exhibit more fusion features. Taken together, we showed that type 1 and type 2 β-hCG are highly expressed by VCT in the early first trimester, contributing to the high levels of hCG found in maternal serum at this term [ABSTRACT FROM AUTHOR]

Published

2012

4. In situ protein expression in tumour spheres:development of an immunostaining protocol forconfocal microscopy.

Author

Weiswald, Louis-Bastien, Guinebretière, Jean-Marc, Richon, Sophie, Bellet, Dominique, Saubaméa, Bruno, and Dangles-Marie, Virginie

Subjects

COLON cancer, STEM cells, CELL lines, CONFOCAL microscopy, CANCER cells

Abstract

Background: Multicellular tumour sphere models have been shown to closely mimic phenotype characteristics of in vivo solid tumours, or to allow in vitro propagation of cancer stem cells (CSCs). CSCs are usually characterized by the expression of specific membrane markers using flow cytometry (FC) after enzymatic dissociation. Consequently, the spatial location of positive cells within spheres is not documented. Confocal microscopy is the best technique for the imaging of thick biological specimens after multi-labelling but suffers from poor antibody penetration. Thus, we describe here a new protocol for in situ confocal imaging of protein expression in intact spheroids. Methods: Protein expression in whole spheroids (150 μm in diameter) from two human colon cancer cell lines, HT29 and CT320X6, has been investigated with confocal immunostaining, then compared with profiles obtained through paraffin immunohistochemistry (pIHC) and FC. Target antigens, relevant for colon cancer and with different expression patterns, have been studied. Results: We first demonstrate that our procedure overcomes the well-known problem of antibody penetration in compact structures by performing immunostaining of EpCAM, a membrane protein expressed by all cells within our spheroids. EpCAM expression is detected in all cells, even the deepest ones. Likewise, antibody access is confirmed with CK20 and CD44 immunostaining. Confocal imaging shows that 100% of cells express β-catenin, mainly present in the plasma membrane with also cytoplasmic and nuclear staining, in agreement with FC and pIHC data. pIHC and confocal imaging show similar CA 19-9 cytoplasmic and membranar expression profile in a cell subpopulation. CA 19-9+ cell count confirms confocal imaging as a highly sensitive method (75%, 62% and 51%, for FC, confocal imaging and pIHC, respectively). Finally, confocal imaging reveals that the weak expression of CD133, a putative colon CSC marker, is restricted to the luminal cell surface of colorectal cancer acini, with CD133+ cellular debris into glandular lumina. Conclusion: The present protocol enables in situ visualization of protein expression in compact three-dimensional models by whole mount confocal imaging, allowing the accurate localization and quantification of cells expressing specific markers. It should prove useful to study rare events like CSCs within tumour spheres. [ABSTRACT FROM AUTHOR]

Published

2010

5. Newly characterised ex vivo colospheres as a three-dimensional colon cancer cell model of tumour aggressiveness.

Author

Weiswald, L.-B., Richon, S., Validire, P., Briffod, M., Lai-Kuen, R., Cordelières, F. P., Bertrand, F., Dargere, D., Massonnet, G., Marangoni, E., Gayet, B., Pocard, M., Bieche, I., Poupon, M.-F., Bellet, D., Dangles-Marie, V., and Cordelières, F P

Subjects

COLON cancer, METASTASIS, CANCER research, ONCOLOGY, METALLOPROTEINASES, XENOGRAFTS, ANTIGEN analysis, PEPTIDE analysis, GLYCOPROTEIN analysis, ANIMAL experimentation, CANCER invasiveness, CELL lines, CELLS, CELL motility, COLON tumors, COMPARATIVE studies, RESEARCH methodology, MEDICAL cooperation, MICE, RECTUM tumors, RESEARCH, STEM cells, EVALUATION research

Abstract

Background: New models continue to be required to improve our understanding of colorectal cancer progression. To this aim, we characterised in this study a three-dimensional multicellular tumour model that we named colospheres, directly obtained from mechanically dissociated colonic primary tumours and correlated with metastatic potential.Methods: Colorectal primary tumours (n=203) and 120 paired non-tumoral colon mucosa were mechanically disaggregated into small fragments for short-term cultures. Features of tumours producing colospheres were analysed. Further characterisation was performed using colospheres, generated from a human colon cancer xenograft, and spheroids, formed on agarose by the paired cancer cell lines.Results: Colospheres, exclusively formed by viable cancer cells, were obtained in only 1 day from 98 tumours (47%). Inversely, non-tumoral colonic mucosa never generated colospheres. Colosphere-forming capacity was statistically significantly associated with tumour aggressiveness, according to AJCC stage analysis. Despite a close morphology, colospheres displayed higher invasivity than did spheroids. Spheroids and colospheres migrated into Matrigel but matrix metalloproteinase (MMP)-2 and MMP-9 activity was detected only in colospheres. Mouse subrenal capsule assay revealed the unique tumorigenic and metastatic phenotype of colospheres. Moreover, colospheres and parental xenograft reproduced similar CD44 and CD133 expressions in which CD44+ cells represented a minority subset of the CD133+ population.Conclusion: The present colospheres provide an ex vivo three-dimensional model, potentially useful for studying metastatic process. [ABSTRACT FROM AUTHOR]

Published

2009

6. Fluorocarbon oligonucleotide conjugates for nucleic acids delivery.

Author

Godeau, Guilhem, Arnion, Hélène, Brun, Christophe, Staedel, Cathy, and Barthélémy, Philippe

Published

2010